2022
Tuft-cell-intrinsic and -extrinsic mediators of norovirus tropism regulate viral immunity
Strine M, Alfajaro M, Graziano V, Song J, Hsieh L, Hill R, Guo J, VanDussen K, Orchard R, Baldridge M, Lee S, Wilen C. Tuft-cell-intrinsic and -extrinsic mediators of norovirus tropism regulate viral immunity. Cell Reports 2022, 41: 111593. PMID: 36351394, PMCID: PMC9662704, DOI: 10.1016/j.celrep.2022.111593.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCaliciviridae InfectionsHumansMiceMice, Inbred C57BLNorovirusTropismViral Tropism
2021
Single-cell longitudinal analysis of SARS-CoV-2 infection in human airway epithelium identifies target cells, alterations in gene expression, and cell state changes
Ravindra NG, Alfajaro MM, Gasque V, Huston NC, Wan H, Szigeti-Buck K, Yasumoto Y, Greaney AM, Habet V, Chow RD, Chen JS, Wei J, Filler RB, Wang B, Wang G, Niklason LE, Montgomery RR, Eisenbarth SC, Chen S, Williams A, Iwasaki A, Horvath TL, Foxman EF, Pierce RW, Pyle AM, van Dijk D, Wilen CB. Single-cell longitudinal analysis of SARS-CoV-2 infection in human airway epithelium identifies target cells, alterations in gene expression, and cell state changes. PLOS Biology 2021, 19: e3001143. PMID: 33730024, PMCID: PMC8007021, DOI: 10.1371/journal.pbio.3001143.Peer-Reviewed Original ResearchConceptsSARS-CoV-2 infectionSARS-CoV-2Human bronchial epithelial cellsInterferon-stimulated genesCell state changesAcute respiratory syndrome coronavirus 2 infectionSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infectionSyndrome coronavirus 2 infectionCell tropismCoronavirus 2 infectionCoronavirus disease 2019Onset of infectionCell-intrinsic expressionCourse of infectionAir-liquid interface culturesHost-viral interactionsBronchial epithelial cellsSingle-cell RNA sequencingCell typesIL-1Disease 2019Human airwaysDevelopment of therapeuticsDrug AdministrationViral replicationCD300lf Conditional Knockout Mouse Reveals Strain-Specific Cellular Tropism of Murine Norovirus
Graziano VR, Alfajaro MM, Schmitz CO, Filler RB, Strine MS, Wei J, Hsieh LL, Baldridge MT, Nice TJ, Lee S, Orchard RC, Wilen CB. CD300lf Conditional Knockout Mouse Reveals Strain-Specific Cellular Tropism of Murine Norovirus. Journal Of Virology 2021, 95: 10.1128/jvi.01652-20. PMID: 33177207, PMCID: PMC7925115, DOI: 10.1128/jvi.01652-20.Peer-Reviewed Original ResearchConceptsConditional knockout miceIntestinal epithelial cellsCell tropismKnockout miceTuft cellsDendritic cellsMyelomonocytic cellsB cellsCellular tropismMurine norovirusEpithelial cellsViral RNA levelsInnate immune responseCause of gastroenteritisMNoV infectionCell typesViral loadGastrointestinal infectionsReceptor expressionImmunocompetent humansImmune responseCell type-specific rolesMouse modelIntestinal tissueMNoV
2020
CD300lf is the primary physiologic receptor of murine norovirus but not human norovirus
Graziano VR, Walker FC, Kennedy EA, Wei J, Ettayebi K, Strine MS, Filler RB, Hassan E, Hsieh LL, Kim AS, Kolawole AO, Wobus CE, Lindesmith LC, Baric RS, Estes MK, Orchard RC, Baldridge MT, Wilen CB. CD300lf is the primary physiologic receptor of murine norovirus but not human norovirus. PLOS Pathogens 2020, 16: e1008242. PMID: 32251490, PMCID: PMC7162533, DOI: 10.1371/journal.ppat.1008242.Peer-Reviewed Original ResearchConceptsMNoV infectionPrimary physiologic receptorPhysiologic receptorHuman norovirusMurine norovirusBona fide receptorHumoral responseVirus infectionEntry receptorReceptor utilizationCell tropismInfectionReceptorsVirus-like particlesFide receptorCD300lfNorovirusHNoVCD300ldMajor determinantProteinaceous receptorsVivoMNoV.MNoVPathogenesis
2019
Norovirus Attachment and Entry
Graziano VR, Wei J, Wilen CB. Norovirus Attachment and Entry. Viruses 2019, 11: 495. PMID: 31151248, PMCID: PMC6630345, DOI: 10.3390/v11060495.Peer-Reviewed Original ResearchConceptsHisto-blood group antigensNorovirus attachmentMajority of casesMajor human pathogenViral life cycleImmune interactionsViral gastroenteritisCell tropismGroup antigensViral entryKey mediatorHuman norovirusBile saltsViral genome releaseMurine norovirusReceptorsMinor capsid protein VP2Capsid protein VP2Human pathogensMolecular mechanismsNorovirusSignificant determinantsProtein VP2Important future directionsCurrent understanding
2018
Sphingolipid biosynthesis induces a conformational change in the murine norovirus receptor and facilitates viral infection
Orchard RC, Wilen CB, Virgin HW. Sphingolipid biosynthesis induces a conformational change in the murine norovirus receptor and facilitates viral infection. Nature Microbiology 2018, 3: 1109-1114. PMID: 30127493, PMCID: PMC6158067, DOI: 10.1038/s41564-018-0221-8.Peer-Reviewed Original ResearchConceptsSerine palmitoyltransferase complexSphingolipid biosynthesisCellular susceptibilityConformational changesLipid biosynthetic enzymesDe novo sphingolipid biosynthesisHost cellular receptorsSerine palmitoyltransferase activityBiosynthetic enzymesBiosynthetic pathwayMurine norovirus infectionMurine norovirusCD300lfCell surfaceBiosynthesisUnappreciated connectionCellular receptorsExtracellular ceramideReceptor conformationViral infectionSurface expressionTarget cell surfaceViral bindingPalmitoyltransferase activityReceptorsTropism for tuft cells determines immune promotion of norovirus pathogenesis
Wilen CB, Lee S, Hsieh LL, Orchard RC, Desai C, Hykes BL, McAllaster MR, Balce DR, Feehley T, Brestoff JR, Hickey CA, Yokoyama CC, Wang YT, MacDuff DA, Kreamalmayer D, Howitt MR, Neil JA, Cadwell K, Allen PM, Handley SA, van Lookeren Campagne M, Baldridge MT, Virgin HW. Tropism for tuft cells determines immune promotion of norovirus pathogenesis. Science 2018, 360: 204-208. PMID: 29650672, PMCID: PMC6039974, DOI: 10.1126/science.aar3799.Peer-Reviewed Original ResearchConceptsVirus infectionImmune promotionTuft cellsType 2 cytokinesEnteric virus infectionEnteric viral infectionsIntestinal epithelial cellsMNoV infectionNorovirus infectionCommensal microbiotaHost immunityViral infectionNorovirus pathogenesisRare typeImmune systemCellular tropismInfectionMouse intestineTarget cellsEpithelial cellsCell proliferationCytokinesTropismCD300lfCells
2017
Norovirus Cell Tropism Is Determined by Combinatorial Action of a Viral Non-structural Protein and Host Cytokine
Lee S, Wilen CB, Orvedahl A, McCune BT, Kim KW, Orchard RC, Peterson ST, Nice TJ, Baldridge MT, Virgin HW. Norovirus Cell Tropism Is Determined by Combinatorial Action of a Viral Non-structural Protein and Host Cytokine. Cell Host & Microbe 2017, 22: 449-459.e4. PMID: 28966054, PMCID: PMC5679710, DOI: 10.1016/j.chom.2017.08.021.Peer-Reviewed Original ResearchConceptsIntestinal epithelial cellsViral surface proteinsCellular tropismPersistent viral infectionNon-structural protein NS1Expression of NS1MNoV infectionSurface proteinsHost cytokinesAntiviral immunityHost determinantsInterferon lambdaViral infectionKey host determinantsViral non-structural proteinsCell tropismFecal sheddingNon-structural proteinsTropism determinantsEpithelial cellsGlobal causeInfectionTropismProtein NS1MNoV
2012
Transmitted/Founder and Chronic Subtype C HIV-1 Use CD4 and CCR5 Receptors with Equal Efficiency and Are Not Inhibited by Blocking the Integrin α4β7
Parrish NF, Wilen CB, Banks LB, Iyer SS, Pfaff JM, Salazar-Gonzalez JF, Salazar MG, Decker JM, Parrish EH, Berg A, Hopper J, Hora B, Kumar A, Mahlokozera T, Yuan S, Coleman C, Vermeulen M, Ding H, Ochsenbauer C, Tilton JC, Permar SR, Kappes JC, Betts MR, Busch MP, Gao F, Montefiori D, Haynes BF, Shaw GM, Hahn BH, Doms RW. Transmitted/Founder and Chronic Subtype C HIV-1 Use CD4 and CCR5 Receptors with Equal Efficiency and Are Not Inhibited by Blocking the Integrin α4β7. PLOS Pathogens 2012, 8: e1002686. PMID: 22693444, PMCID: PMC3364951, DOI: 10.1371/journal.ppat.1002686.Peer-Reviewed Original ResearchMeSH KeywordsAntibodies, NeutralizingAntibodies, ViralCD4 AntigensCD4-Positive T-LymphocytesCells, CulturedCloning, MolecularHIV Envelope Protein gp120HIV InfectionsHIV-1Host-Pathogen InteractionsHumansIntegrinsMucous MembraneNeutralization TestsReceptors, CCR5Viral TropismVirus InternalizationVirus ReplicationConceptsF virusesInfectious molecular cloneMucosal HIV-1 acquisitionNew HIV-1 infectionsHuman immunodeficiency virus type 1Immunodeficiency virus type 1Transmitted/FounderHIV-1 acquisitionHIV-1 vaccine designSubtype C HIVHIV-1 infectionSingle genome amplificationAnti-α4β7 antibodyVirus type 1V2 variable loopsChronic EnvsC HIVFounder virusesSexual transmissionChronic virusesGp120 subunitIntegrin α4β7Transmission fitnessSame CD4CD4
2011
Primary Infection by a Human Immunodeficiency Virus with Atypical Coreceptor Tropism
Jiang C, Parrish N, Wilen C, Li H, Chen Y, Pavlicek J, Berg A, Lu X, Song H, Tilton J, Pfaff J, Henning E, Decker J, Moody M, Drinker M, Schutte R, Freel S, Tomaras G, Nedellec R, Mosier D, Haynes B, Shaw G, Hahn B, Doms R, Gao F. Primary Infection by a Human Immunodeficiency Virus with Atypical Coreceptor Tropism. Journal Of Virology 2011, 85: 10669-10681. PMID: 21835785, PMCID: PMC3187499, DOI: 10.1128/jvi.05249-11.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid MotifsAmino Acid SubstitutionApelin ReceptorsCD4-Positive T-LymphocytesCells, CulturedEnv Gene Products, Human Immunodeficiency VirusGene ExpressionHIV-1HumansMacrophagesReceptors, Formyl PeptideReceptors, G-Protein-CoupledReceptors, HIVReceptors, LipoxinReceptors, PeptideViral TropismConceptsF virusesHuman immunodeficiency virus type 1Immunodeficiency virus type 1Alternative coreceptor GPR15Sequential plasma samplesHuman immunodeficiency virusClade B virusesVirus type 1Cell linesPrimary human CD4Third variable loopEarly time pointsCoreceptor tropismFounder virusesMultiple CD4Immunodeficiency virusAlternative coreceptorsCCR5 coreceptorPrimary infectionB virusCXCR4 coreceptorFPRL-1T cellsHuman CD4Homozygous donorsPhenotypic and Immunologic Comparison of Clade B Transmitted/Founder and Chronic HIV-1 Envelope Glycoproteins
Wilen CB, Parrish NF, Pfaff JM, Decker JM, Henning EA, Haim H, Petersen JE, Wojcechowskyj JA, Sodroski J, Haynes BF, Montefiori DC, Tilton JC, Shaw GM, Hahn BH, Doms RW. Phenotypic and Immunologic Comparison of Clade B Transmitted/Founder and Chronic HIV-1 Envelope Glycoproteins. Journal Of Virology 2011, 85: 8514-8527. PMID: 21715507, PMCID: PMC3165820, DOI: 10.1128/jvi.00736-11.Peer-Reviewed Original ResearchConceptsMucosal barrierF EnvsNeutralization sensitivitySingle-round infectivity assaysHuman immunodeficiency virus type 1Immunodeficiency virus type 1Enhanced neutralization sensitivityTransmitted/FounderHIV-1 envelope glycoproteinHIV-1 transmissionIntact mucosal barrierClade B EnvVirus type 1Chronic EnvsHIV-IgDendritic cellsCoreceptor tropismFounder virusesSexual transmissionEnv phenotypeAntibody b12Chronic controlEffective vaccineNew infectionsEnv trimers
2010
HIV-1 Resistance to CCR5 Antagonists Associated with Highly Efficient Use of CCR5 and Altered Tropism on Primary CD4+ T Cells
Pfaff JM, Wilen CB, Harrison JE, Demarest JF, Lee B, Doms RW, Tilton JC. HIV-1 Resistance to CCR5 Antagonists Associated with Highly Efficient Use of CCR5 and Altered Tropism on Primary CD4+ T Cells. Journal Of Virology 2010, 84: 6505-6514. PMID: 20410277, PMCID: PMC2903254, DOI: 10.1128/jvi.00374-10.Peer-Reviewed Original ResearchConceptsT cellsResistant virusesAntagonist aplavirocCCR5 antagonistsTropism shiftSmall-molecule CCR5 antagonistsEffector memory cellsT cell subsetsHIV-1 resistanceT cell homeostasisVirologic failureCell subsetsV3 loopPrimary CD4Virus infectionRelative sparingHost determinantsImmune functionCCR5Heterologous virusesViral resistanceViral tropismCentral memoryDrug resistanceAltered tropism